WO2023019525A1 - 一种医疗通气设备 - Google Patents
一种医疗通气设备 Download PDFInfo
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- WO2023019525A1 WO2023019525A1 PCT/CN2021/113602 CN2021113602W WO2023019525A1 WO 2023019525 A1 WO2023019525 A1 WO 2023019525A1 CN 2021113602 W CN2021113602 W CN 2021113602W WO 2023019525 A1 WO2023019525 A1 WO 2023019525A1
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- medical
- monitor
- ventilation device
- medical ventilation
- display
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Definitions
- the present application relates to the field of ventilation therapy, and more specifically relates to a medical ventilation device.
- the ventilator and the monitor are two completely independent devices.
- each mechanically ventilated patient is equipped with a monitor and a ventilator at the bedside.
- the two devices are prepared to be started, set up, installed and fixed independently, and operated. It is cumbersome and the equipment management is complicated, which increases the workload of medical staff. Therefore need to improve ventilation equipment, to solve the existing problems.
- the first aspect of the embodiment of the present application provides a medical ventilation device, including: a patient pipeline, used to connect to the patient interface, so as to deliver ventilation gas to the patient's airway; a pressure generator, used to generate gas with a set pressure to delivered to the patient; a controller, used to control the pressure generator to ventilate the patient based on the configuration information matched with the patient; a human-computer interaction interface, used to display the respiratory therapy parameters of the medical ventilation equipment and obtain user input information; the medical ventilation equipment is also provided with a physical connection structure, the physical connection structure is used to detachably install the monitor on the main body of the medical ventilation equipment; the monitor is used for When the medical ventilation equipment performs ventilation treatment on the patient, it measures the physiological parameter data of the patient; the medical ventilation equipment also includes a communication interface, which is used to, when the monitor is installed on the medical ventilation equipment, communicating information with the monitor.
- the second aspect of the embodiment of the present application provides a medical ventilation device, including: a patient pipeline, used to connect to the patient interface, so as to deliver ventilation gas to the patient's airway; a pressure generator, used to generate gas with a set pressure to delivered to the patient; a controller, used to control the pressure generator to ventilate the patient based on the configuration information matched with the patient; a human-computer interaction interface, used to display the breath of the ventilation device medical ventilation equipment treatment parameters and acquiring user input information; the medical ventilation equipment also includes a communication interface for information communication with a monitor; the monitor is used to measure The physiological parameter data of the patient; the human-computer interaction interface is also used to obtain the control instruction input by the user, and the controller is also used to send the information to the monitor through the communication interface according to the control instruction The control instruction is used to control the monitor to perform the first operation.
- the third aspect of the embodiment of the present application provides a medical ventilation device, including: a patient pipeline, used to connect to the patient interface, so as to deliver ventilation gas to the patient's airway; a pressure generator, used to generate gas with a set pressure to delivered to the patient; a controller, used to control the pressure generator to ventilate the patient based on configuration information matched with the patient; a human-computer interaction interface, used to display the respiratory therapy parameters and Acquiring user input information; the medical ventilation equipment also includes a communication interface for information communication with a monitor; the monitor is used to measure the patient's The physiological parameter data; the controller is also used to acquire the physiological parameter data obtained by monitoring the patient by the monitor through the communication interface, and the human-computer interaction interface is also used to display the acquired physiological parameter data.
- the fourth aspect of the embodiment of the present application provides a medical device, including a ventilation device and a monitoring device, the ventilation device and the monitoring device are integrated together in a non-detachable manner;
- the ventilation device includes: a patient pipeline for connecting The patient interface is used to deliver ventilation gas to the airway of the patient; the pressure generator is used to generate gas with a set pressure for delivery to the patient; the monitoring device is used to obtain physiological parameter data of the patient through a physiological parameter sensor
- the medical device also includes: a controller, configured to control the ventilation device to ventilate the patient based on the configuration information matched with the patient, and control the monitoring device to obtain the patient's physiological parameter data;
- a computer interaction interface the human-computer interaction interface includes a first display screen and a second display screen, the first display screen is used to display the respiratory therapy parameters of the ventilation device, and the second display screen is used to display the Physiological parameter data.
- the fifth aspect of the embodiment of the present application provides a medical ventilation device, the medical ventilation device is used for communicating with a monitor, the medical ventilation device is configured to perform respiratory therapy on a patient, the medical ventilation device includes a display device, It is used to display the respiratory therapy parameters of the medical ventilation equipment; the medical ventilation equipment is also used to obtain control instructions input by users, and at least control the monitor to work based on the control instructions.
- the sixth aspect of the embodiment of the present application provides a medical ventilation device, the medical ventilation device is used for communicating with a monitor, the medical ventilation device is configured to perform respiratory therapy on a patient, the medical ventilation device includes a display device, It is used to display the respiratory therapy parameters of the medical ventilation equipment; the medical ventilation equipment is also used to obtain the physiological parameter data monitored by the monitor on the patient, and display the physiological parameter data on the display device .
- the seventh aspect of the embodiment of the present application provides a medical ventilation device, the medical ventilation device is used for communicating with a monitor, the medical ventilation device is configured to perform respiratory therapy on a patient, and the monitor is configured to monitor the Physiological parameter data of the patient; the medical ventilation equipment is configured to acquire a control command input by a user, and control the monitor to enter a CPR rescue mode based on the control command.
- the medical ventilation device is connected in communication with the monitor, and the medical ventilation device is also used to obtain the control instruction input by the user, and at least control the monitor to work based on the control instruction,
- the medical ventilator can control the monitor so as to improve the operating efficiency in the process of ventilating and monitoring, and reduce the workload of medical staff.
- Fig. 1 shows a schematic block diagram of a medical ventilation device according to an embodiment of the present application
- Fig. 2 shows a schematic block diagram of a medical ventilation device according to an embodiment of the present application
- Fig. 3 shows a schematic block diagram of a medical ventilation device according to an embodiment of the present application
- Fig. 4 shows a schematic block diagram of a medical device according to an embodiment of the present application
- Fig. 5 shows a schematic structural diagram of a medical ventilation device according to an embodiment of the present application
- Fig. 6 shows a schematic diagram of page display of a display device of a medical ventilation device according to an embodiment of the present application
- Fig. 7 shows a schematic diagram of page display of a display device of a medical ventilation device according to another embodiment of the present application.
- Fig. 8 shows a schematic diagram of page display of a display device of a medical ventilation device according to another embodiment of the present application.
- the current ventilator and the monitor are all set separately, so there will be the following problems: the two devices are prepared and started separately, which increases the operation steps of the medical staff, which is troublesome and time-consuming.
- the two devices are set up separately, and the settings of the two devices for the same patient are somewhat repetitive, such as the setting of patient information and the setting of device interconnection (connecting to the central station, connecting to the information system), which increases the workload of medical staff.
- the adjustment of the ventilation therapy strategy of the ventilator is carried out based on the monitoring of the vital signs of the patient by the monitor, so it is necessary to frequently switch the line of sight when operating the ventilator.
- the two since the two are set up separately, two devices need to be carried, which increases the work intensity of device management, and the devices are relatively heavy.
- the first aspect of the present application provides a medical ventilation device 100, referring to FIG. Ventilation gas; pressure generator 120, used to generate gas with a set pressure to be delivered to the patient; controller 130, used to control the pressure generator to perform on the patient based on the configuration information matched with the patient Ventilation; the man-machine interaction interface 140 is used to display the respiratory therapy parameters of the medical ventilation device 100 and obtain the user's input information; the medical ventilation device 100 is also provided with a physical connection structure 150, and the physical connection structure 150 is used
- the monitor is detachably installed on the main body of the medical ventilation equipment; the monitor is used to measure the patient's physiological parameter data when the medical ventilation equipment performs ventilation treatment on the patient; the medical The ventilation device also includes a communication interface 160 for communicating information with the monitor when the monitor is installed on the medical ventilation device 100 .
- the monitor is installed on the main body of the medical ventilation device through the physical connection structure 150, so that in the scenario where the medical ventilation device and the monitor need to be used at the same time, the two are equivalent to one device. Different from the way that two devices are simply connected by cables, the problem of managing two independent devices is alleviated.
- the human-computer interaction interface 140 is further configured to obtain a control instruction input by the user, and the controller 130 is further configured to send the control instruction to the monitor through the communication interface 160, so as to control the monitor to perform the first operation.
- the user can directly operate the monitor through the medical ventilation equipment without frequently switching equipment.
- the first operation includes at least one of power on, power off, standby, entering a specific working mode, and setting an alarm limit.
- the controller 130 is further configured to control the medical ventilation device to perform a second operation according to the received control instruction, and the first operation is associated with the second operation. Therefore, the user only needs to input a control command once to control both the medical ventilation device and the monitor at the same time, which improves the user's operating efficiency in the process of monitoring and ventilation.
- the second operation includes at least one of power on, power off, standby, entering a specific working mode, and setting an alarm limit.
- the human-computer interaction interface 140 includes working mode buttons, which are associated with the corresponding specific working modes in the monitor and the medical ventilation device 100, and the working mode buttons are used to generate information for simultaneous control based on user operations. Control instructions for monitors and medical ventilation equipment to enter specific operating modes.
- the working mode button may include a rescue mode button
- the rescue mode button is associated with the cardiopulmonary resuscitation rescue mode of the monitor and the cardiopulmonary resuscitation ventilation mode of the medical ventilation device.
- the rescue mode button When the user operates the rescue mode button, the monitor starts the cardiopulmonary resuscitation rescue mode, and the medical ventilation equipment starts the cardiopulmonary resuscitation ventilation mode at the same time.
- the rescue assistant unit can be turned on to record the rescue process, and the effect evaluation unit can be turned on to evaluate the cardiopulmonary resuscitation rescue effect.
- the controller 130 is also used to acquire the physiological parameter data obtained by monitoring the patient by the monitor, and the human-computer interaction interface 140 is also used to display the acquired physiological parameter data.
- Physiological parameter data includes but not limited to CO 2 , ECG, pulse, etc.
- the man-machine interface 140 is used to display the real-time waveform and real-time value of the physiological parameter data, and mark the corresponding safety limit in the real-time waveform.
- the monitor may be a multi-parameter monitor, also referred to as a multi-parameter monitor.
- the multi-parameter monitor can obtain and monitor multiple physiological parameters of a patient.
- the multiple physiological parameters acquired by the multi-parameter monitor at least include ECG parameters.
- the medical ventilation device 100 may be a portable ventilator.
- the human-computer interaction interface 140 includes a display device, and the display device may include a touch screen.
- the display device includes at least two display areas, and the physiological parameter data and respiratory therapy parameters are displayed in different areas. Displaying the physiological parameter data and the respiratory therapy parameter in different areas is helpful for the user to quickly distinguish between the two.
- the display device can also display the physiological parameter data and the respiratory therapy parameters in fusion.
- the display device includes a plurality of display areas, and different physiological parameter data and different respiratory therapy parameters are displayed in different display areas; the medical ventilation device 100 is also configured to fuse and display relevant physiological parameter data and respiratory therapy parameters on the within the same display area.
- the display areas of different data are divided according to the relevance of the data, and the related data are displayed in the same display area, which is beneficial for the user to quickly view the related physiological parameter data and respiratory therapy parameters.
- the physical connection structure 150 includes a hot-swappable structure
- the medical ventilation device 100 is provided with a plug-in slot supporting hot-swappable monitor
- the medical ventilator communicates with the monitor through the communication interface of the plug-in slot.
- the communication interface includes at least one of a contact communication interface, an optical communication interface, a Bluetooth communication interface, and a WIFI communication interface.
- the monitor can be plugged into or pulled out of the medical ventilation equipment without turning off the power supply of the medical ventilation equipment, without affecting the normal operation of the medical ventilation equipment.
- the medical ventilator 100 also includes a power supply device and a common power interface.
- the power supply device is used to simultaneously supply power to the medical ventilator and the monitor, thereby eliminating the need for a separate
- the monitor is equipped with a power supply unit and a power interface.
- the medical ventilation equipment includes a portable ventilator and the monitor includes a transport monitor.
- the transfer monitor is used to monitor patients during the transfer process outside the hospital or in the hospital.
- the integration of a portable ventilator and a transfer monitor helps to reduce the difficulty of equipment management during the transfer process.
- the controller 130 is also used to transmit the working data of the medical ventilator to the monitor based on the communication interface 160, so that the monitor can monitor according to the working data of the medical ventilator, and the user can also monitor on the monitor View the working data of the monitor.
- the working data transmitted to the monitor through the communication interface 160 is at least one of ventilation configuration data and ventilation monitoring data of the medical ventilation equipment. After the working equipment of the medical ventilation equipment is transferred to the monitor, the ventilation configuration data and ventilation monitoring data transfer between the medical ventilation equipment can be realized by pulling out the monitor and plugging it into other medical ventilation equipment.
- the medical ventilator 100 of the embodiment of the present application is physically connected to the monitor through the physical connection structure 150, and communicated with the monitor through the communication interface 160, so that the monitor and the medical ventilator are physically and communicatively integrated, thereby reducing The size of the equipment is reduced, making the equipment easy to manage, transport and operate.
- the controller 230 is further configured to control the medical ventilation device 200 to perform a second operation according to the control instruction, and the first operation is associated with the second operation.
- the first operation or the second operation includes at least one of power on, power off, standby, entering a specific working mode, and setting an alarm limit.
- the human-computer interaction interface 240 includes working mode buttons, the working mode buttons are associated with the same specific working mode in the monitor and the medical ventilation device 200, and the working mode buttons are used to generate information for controlling the monitor at the same time based on the user's operation. and medical ventilation equipment to enter the control command of a specific working mode.
- the working mode button includes a rescue mode button, and the rescue mode button is associated with the cardiopulmonary resuscitation rescue mode of the monitor and the cardiopulmonary resuscitation ventilation mode of the medical ventilation device 200.
- the rescue mode button is activated, the monitor starts the cardiopulmonary resuscitation rescue mode.
- the ventilation equipment starts the cardiopulmonary resuscitation ventilation mode, thereby reducing the number of steps to operate the equipment during the rescue process, and allowing medical staff to focus more on patients.
- the controller 230 is also used to transmit the working data of the medical ventilator to the monitor based on the communication interface 250, so that the monitor can monitor according to the working data of the medical ventilator, and the user can also monitor on the monitor View the working data of the monitor.
- the working data transmitted to the monitor through the communication interface 250 is at least one of ventilation configuration data and ventilation monitoring data of the medical ventilation equipment. After the working equipment of the medical ventilation equipment is transferred to the monitor, the ventilation configuration data and ventilation monitoring data transfer between the medical ventilation equipment can be realized by pulling out the monitor and plugging it into other medical ventilation equipment.
- the medical ventilation device 200 of the embodiment of the present application can communicate with the monitor through the communication interface 250, and the user can control the monitor through the human-computer interaction interface 240 of the medical ventilation device 200 without switching devices, which improves the user's monitoring and ventilation process. operating efficiency in .
- the medical ventilation device 300 in the embodiment of the present application is connected to the monitor through the communication interface 350, and the physiological parameter data obtained by the monitor can be displayed on the medical ventilation device, so that the user can simultaneously view the breathing data obtained by the medical ventilation device through the medical ventilation device. Therapy parameters, user input information, and physiological parameter data.
- the medical device 400 includes a ventilation device 410 and a monitoring device 420 , and the ventilation device 410 and the monitoring device 420 are non-detachably integrated.
- the ventilation device 410 includes: a patient circuit, used to connect to a patient interface, to deliver ventilation gas to the airway of the patient; and a pressure generator, used to generate gas at a set pressure to deliver to the patient.
- the monitoring device 420 is used to acquire the physiological parameter data of the patient through the physiological parameter sensor.
- the medical device 400 further includes: a controller 430, configured to control the ventilator 410 to ventilate the patient based on the configuration information matched with the patient, and control the monitoring device 420 to acquire physiological parameter data of the patient;
- a human-computer interaction interface 440 the human-computer interaction interface 440 includes a first display screen and a second display screen, the first display screen is used to display the respiratory therapy parameters of the ventilation device, and the second display screen is used to Display the physiological parameter data.
- the first display screen and the second display screen may be arranged side by side up and down.
- the controller 430 may include one or more processors, for example, the ventilation device 410 and the monitoring device 420 may be controlled by the same processor, or may be controlled by different processors.
- the human-computer interaction interface 440 is also used to obtain the control instruction input by the user, and the controller 430 is also used to control the ventilation device 410 to perform the first operation according to the control instruction, and to control the monitoring device 420 to perform the second operation.
- the first operation has an association with the second operation.
- the first operation or the second operation includes at least one of power on, power off, standby, entering a specific working mode, and setting an alarm limit.
- the medical device 400 in the embodiment of the present application includes a ventilation device 410 and a monitoring device 420, so that it can realize both the medical ventilation function and the monitoring function.
- the user can also input control instructions through the human-computer interaction interface 440 to perform cooperative control on the ventilation device 410 and the monitoring device 420 .
- the embodiment of the present application also provides a medical ventilation device, the medical ventilation device is used to communicate with the monitor, the medical ventilation device is configured to perform respiratory therapy on the patient, and the medical ventilation device includes a display device for displaying the breathing rate of the medical ventilation device.
- the medical ventilation equipment is also used to obtain control instructions input by the user, and at least control the work of the monitor based on the control instructions.
- the medical ventilation equipment may be a ventilator, which is used to mechanically ventilate a patient, such as a portable ventilator.
- the monitor can be a portable monitor or various monitoring modules.
- the monitor may be a module built into the medical ventilation device, or the monitor may be a detachable module of the medical ventilation device.
- the monitor and medical ventilation equipment are used as a system to realize common power supply, one-button start/shutdown, same-screen setting/display, etc.
- the monitor when the monitor is a module built into the medical ventilation equipment, it is integrated inside the medical ventilation equipment, as a functional module of the medical ventilation equipment, and is integrated with the medical ventilation equipment, but it can realize all the functions of the monitor, It may not have an independent display screen or power supply, and share the display screen and power supply with the medical ventilation equipment; it may also have an independent display screen or power supply.
- the monitor is built into the medical ventilation equipment in a non-detachable form
- the display device includes a first display screen and a second display screen.
- the first display screen is used to display the respiratory therapy parameters of the medical ventilation equipment
- the second display screen is used to display the physiological parameter data obtained from monitoring the patient by the monitor.
- the first display screen and the second display screen can be arranged side by side.
- the monitor when the monitor is a module built into the medical ventilation equipment, the monitor can be set on the main structure inside the medical ventilation equipment, or it can be a module unit set separately, which is not limited here.
- the monitor is a built-in module in the medical ventilation equipment, it is a multi-parameter monitor, which is used to monitor multiple physiological parameter data, and can even With data processing, physiological alarm and other functions.
- the multi-parameter monitor is used at least to obtain electrocardiographic data (ECG).
- ECG electrocardiographic data
- the monitor When the monitor is a detachable module of medical ventilation equipment, it can be integrated with the medical ventilation equipment in a detachable manner. At this time, the monitor can be a monitor that operates independently, for example, with an independent display device and power supply. The instrument may also not have an independent display device and power supply, and be powered and displayed by medical ventilation equipment.
- the monitor When the monitor is a detachable module of the medical ventilation device, the monitor is detachably integrated with the medical ventilation device, so that the monitor can be combined with different medical ventilation devices.
- the monitor is also used to obtain and save working data of the medical ventilation equipment, and the working data includes ventilation monitoring data and/or ventilation configuration data.
- the medical ventilation equipment can realize the transfer of ventilation settings and monitoring information between ventilators.
- the monitor when the monitor is a detachable module of the medical ventilation device, the monitor is detachably fixed on the medical ventilation device through a physical connection structure, wherein the physical connection structure is a physical connection structure.
- the physical connection structure is a hot-swappable structure.
- the medical ventilation device 510 is provided with a plug-in slot 530 supporting a hot-swappable monitor. Communicates with monitor 520 .
- the communication interface can be a conventional contact communication interface, or an optical communication interface.
- the physical connection structure includes a first connection structure disposed on one end of the monitor inserted into the plug-in slot, and a second connection structure disposed on the side wall of the plug-in slot, wherein the first connection structure and the second The connections are matched to each other to allow for securement of the monitor and communication with medical ventilation equipment.
- the first connection structure and the second connection structure are locking structures.
- the two can also communicate in a wireless manner, such as Bluetooth, WIFI, and the like.
- the medical ventilation equipment receives the control instructions input by the user, and based on the communication connection with the monitor, at least controls the work of the monitor according to the control instructions, such as controlling the monitor to turn on, turn off, enter a specific working mode, etc.
- control instruction is also used to simultaneously control the operation of the medical ventilation equipment.
- control instruction is used to simultaneously control the monitor and the medical ventilator to perform at least one of power on, power off, standby and enter a specific working mode.
- the medical ventilation device includes interactive buttons, and the user inputs control instructions by operating the interactive buttons.
- the interactive key may be a physical key or a virtual key.
- the interactive key is a button provided on the main body of the medical ventilation equipment, or the interactive key is a control provided on the display interface of the display device, which is not limited here, as long as the control command can be generated based on the user's operation.
- the monitor and the medical ventilation device can also have separate control buttons, so as to independently control the monitor and the medical ventilation device.
- a monitor includes a monitoring switch for individually controlling the monitor's startup, shutdown, and standby;
- medical ventilation equipment includes a ventilation switch for individually controlling the ventilation equipment's startup, shutdown, ventilation activation, and standby.
- the working mode button includes a rescue mode button
- the rescue mode button is respectively associated with the cardiopulmonary resuscitation rescue mode of the monitor and the cardiopulmonary resuscitation ventilation mode of the medical ventilation device.
- the rescue mode button When the rescue mode button is activated based on the user's operation, the rescue mode
- the buttons generate corresponding control instructions to control the monitor to start the cardiopulmonary resuscitation rescue mode, and at the same time control the medical ventilation equipment to start the cardiopulmonary resuscitation ventilation mode.
- the rescue assistant unit can be turned on to record the rescue process, and the effect evaluation unit can be turned on to evaluate the cardiopulmonary resuscitation rescue effect.
- the ventilation mode when the rescue mode button is activated, if the medical ventilation equipment is in the ventilation treatment state (in non-cardiopulmonary resuscitation ventilation mode), the ventilation mode is switched to the cardiopulmonary resuscitation ventilation mode, and it is in a standby state. After the user controls to start the ventilation Restart ventilation. If the medical ventilation equipment is in the standby state, the medical ventilation equipment is controlled to enter the cardiopulmonary resuscitation ventilation mode, and the ventilation of the medical ventilation equipment is directly started.
- the rescue rescue unit is used to record at least one of the following items during the rescue process:
- the start and end times of the rescue the names and/or doses of drugs used during the rescue, and the operations performed during the rescue.
- the rescue assistant unit is used to output the record of the rescue process and form a rescue report.
- the effect evaluation unit is used for displaying the waveform and/or monitoring parameters of at least one of ECG, blood oxygen saturation and carbon dioxide of the monitoring object in the cardiopulmonary resuscitation rescue mode, and/or for displaying continuous quality improvement parameters of nursing care.
- the monitor when the rescue mode button is activated, the monitor is controlled to turn on the rescue hand unit for recording the rescue process, and the monitor is controlled to turn on the effect evaluation unit for evaluating the rescue effect of cardiopulmonary resuscitation;
- the medical ventilation equipment displays the cardiopulmonary resuscitation ventilation mode, and the user manually controls the medical ventilation equipment to start ventilation in the cardiopulmonary resuscitation ventilation mode.
- the medical ventilation equipment is also used to acquire the physiological parameter data obtained from monitoring the patient by the monitor.
- the medical ventilation equipment includes a display device for displaying the respiratory therapy parameters of the medical ventilation equipment and the acquired physiological parameter data of the monitor.
- the display device may include multiple display areas to respectively display different types of data.
- the display device includes at least two display areas, and the physiological parameter data and respiratory therapy parameters are displayed in different areas of the display device.
- different physiological parameter data and different respiratory therapy parameters are displayed in different display areas.
- the two display areas may be formed by two independent display screens, or may be formed by the same display screen.
- the display area may be a display window.
- the display device includes a first display window and a second display window to respectively display physiological parameter data and respiratory therapy parameters.
- the display device is also used for fused display of physiological parameter data and respiratory therapy parameters.
- medical ventilation equipment is also used to associate monitoring parameters with parameters of the same type in respiratory therapy parameters.
- the associated physiological parameter data and respiratory therapy parameters are fused and displayed in the same display area.
- the medical ventilation equipment associates the respiratory therapy parameters in its internal cardiopulmonary resuscitation ventilation mode with the physiological parameter data in the cardiopulmonary resuscitation rescue mode of the monitor, and based on the correlation, the medical ventilation equipment cardiopulmonary resuscitation
- the respiratory therapy parameters in the resuscitation ventilation mode and the physiological parameter data in the cardiopulmonary resuscitation rescue mode of the monitor are displayed in the same display area, or the relevant respiratory therapy parameters are fused into the physiological parameter data waveform for display.
- the medical ventilation equipment may further include other human-computer interaction devices other than the display device, which are used to receive user operations and generate corresponding control instructions, so as to realize the control of the medical ventilation equipment and monitors.
- the human-computer interaction device may include an input device for detecting user input information.
- the input device may include one or a combination of a keyboard, a mouse, a scroll wheel, a trackball, a mobile input device (such as a mobile device with a touch screen, a mobile phone, etc.), a multi-function knob, and the like.
- Human-computer interaction means may also include output devices such as printers.
- the medical ventilation equipment may also include a memory for storing control instructions, physiological parameter data, respiratory therapy parameters, and information recorded by the rescue rescue unit during the rescue process.
- the memory may be a flash memory card, a solid-state memory, a hard disk, etc.; it may also be a volatile memory and/or a non-volatile memory, or it may be a removable memory and/or a non-removable memory.
- the medical ventilation equipment is connected to the monitor in communication, and the medical ventilation equipment is also used to obtain the control instructions input by the user, and at least control the work of the monitor based on the control instructions.
- the medical ventilation equipment can control the monitor. Control to increase operational efficiency during ventilation and monitoring and reduce healthcare staff workload.
- the embodiment of the present application also provides a medical ventilation device, the medical ventilation device is used to communicate with the monitor, the medical ventilation device is configured to perform respiratory therapy on the patient, and the medical ventilation device includes a display device for displaying the breathing rate of the medical ventilation device. Treatment parameters; the medical ventilation equipment is also used to obtain the physiological parameter data monitored by the monitor on the patient, and display the physiological parameter data on the display device.
- the monitor and the medical ventilation equipment are connected through wireless communication; or, the monitor is detachably fixed on the medical ventilation equipment through a physical connection structure and communicates with the medical ventilation equipment; or, the monitor is a built-in modules in medical ventilation equipment.
- the monitor is built into the medical ventilation equipment in a non-detachable form
- the display device includes a first display screen and a second display screen.
- the first display screen is used to display the respiratory therapy parameters of the medical ventilation equipment
- the second display screen is used to display the physiological parameter data obtained from monitoring the patient by the monitor.
- the first display screen and the second display screen can be arranged side by side.
- the monitor is a built-in module in medical ventilation equipment, it is a multi-parameter monitor for monitoring multiple physiological parameter data, and can even have Data processing, physiological alarm and other functions.
- the monitor is a built-in module in the medical ventilation equipment, it is a multi-parameter monitor, which is used to monitor multiple physiological parameter data, and can even With data processing, physiological alarm and other functions.
- the monitor is used at least to obtain ECG data.
- the monitor When the monitor is a detachable module of medical ventilation equipment, it can be integrated with the medical ventilation equipment in a detachable manner. At this time, the monitor can be a monitor that operates independently, for example, with an independent display device and power supply. The instrument may also not have an independent display device and power supply, and be powered and displayed by medical ventilation equipment.
- the monitor When the monitor is a detachable module of the medical ventilation device, the monitor is detachably integrated with the medical ventilation device, so that the monitor can be combined with different medical ventilation devices.
- the monitor is also used to obtain and save working data of the medical ventilation equipment, and the working data includes ventilation parameters and/or setting parameters.
- the medical ventilation equipment can realize the transfer of ventilation settings and monitoring information between ventilators.
- the monitor when the monitor can be a detachable module of the medical ventilation device, the monitor is detachably fixed on the medical ventilation device through a physical connection structure, wherein the physical connection structure is a physical connection structure.
- the physical connection structure is a hot-swappable structure
- the medical ventilator is provided with a plug-in slot supporting a hot-swappable monitor, and the medical ventilator obtains the physiological parameters monitored by the monitor to the patient through the communication interface of the plug-in slot data.
- the communication interface can be a conventional contact type communication interface or an optical communication interface.
- the two can also communicate in a wireless manner, such as Bluetooth, WIFI, and the like.
- the physical connection structure includes a first connection structure disposed on one end of the monitor inserted into the plug-in slot and a second connection structure disposed on the side wall of the plug-in slot, wherein the first connection structure and the second connection The structures match each other.
- the first connection structure and the second connection structure are locking structures.
- the display device includes at least two display areas, and the physiological parameter data and respiratory therapy parameters are displayed in different areas.
- the display device is also used for fused display of physiological parameter data and respiratory therapy parameters.
- the display device includes multiple display areas, and different physiological parameter data and different respiratory therapy parameters are displayed in different display areas; the medical ventilation equipment is also configured to display the associated physiological parameter data and respiratory therapy parameters Fusions are displayed in the same display area.
- the medical ventilation equipment includes a portable ventilator.
- the monitor is also used to acquire and save the working data of the medical ventilation equipment.
- the working data may include ventilation configuration data and ventilation monitoring data of the medical ventilation equipment.
- the embodiment of the present application also provides a medical ventilator, which is used to communicate with a monitor, the medical ventilator is configured to perform respiratory therapy on the patient, and the monitor is configured to monitor the patient's physiological parameter data; the medical ventilator is configured In order to obtain the control instruction input by the user, and control the monitor to enter the CPR rescue mode based on the control instruction.
- the medical ventilation equipment includes a display device, and the medical ventilation equipment is used to control the display device to display the respiratory treatment parameters of the medical ventilation equipment, and obtain the physiological parameter data obtained by monitoring the patient from the monitor, and control the display device to display the physiological parameters data.
- the medical ventilation equipment is also used to control the display device to display a CPR special tool interface, and the CPR special tool interface is used to display CPR related information.
- the interface of the special CPR tool is provided with: a first aid unit for recording the rescue process; and an effect evaluation unit for evaluating the rescue effect of cardiopulmonary resuscitation.
- the rescue assistant unit is used to record the rescue process, and can record the start time and end time of rescue, the name and dosage of the drug used in the rescue process, the operation performed during the rescue process and other information.
- the rescue record can be output through the recorder, and the rescue report can also be output through the printer.
- the effect evaluation unit displays the waveform and monitoring parameters of key physiological parameters such as ECG, SpO 2 and CO 2 during the CPR rescue process, and can also display nursing continuous quality improvement parameters (CQI parameters). important parameters of the effect.
- key physiological parameters such as ECG, SpO 2 and CO 2 during the CPR rescue process
- CQI parameters nursing continuous quality improvement parameters
- the medical ventilation equipment is also used to enter the CPRV ventilation mode based on the control command to ventilate the patient.
- the CPRV mode is the cardiopulmonary resuscitation ventilation mode, which is a ventilation mode applied in the process of cardiopulmonary resuscitation compression. Patient harm from frequent triggering and hyperventilation.
- the patient suffers from cardiac arrest during ventilation and monitoring, and needs CPR rescue.
- press the "rescue mode” button to start CPR monitoring related functions (CPR assistant + CPR process monitoring and cardiopulmonary resuscitation effect evaluation) and CPRV ventilation therapy, as shown in area 710 and area 700 .
- the patient suffers from cardiac arrest during ventilation and monitoring and needs CPR rescue, and functions related to CPR monitoring and CPRV ventilation are started separately. That is, press the "rescue mode" button, as shown in area 810, to start the functions related to CPR monitoring (CPR assistant + CPR process monitoring and cardiopulmonary resuscitation effect evaluation); the current ventilation mode remains unchanged, as shown in area 800, if It is necessary to start the CPRV ventilation mode, and the user manually selects the CPRV mode 820 and selects confirmation, thereby completing switching the ventilation mode.
- the monitor and the medical ventilation equipment are connected through wireless communication; or, the monitor is detachably fixed on the medical ventilation equipment through a physical connection structure and communicates with the medical ventilation equipment; or, the monitor is a built-in modules in medical ventilation equipment.
- the physical connection structure is a hot-swappable structure
- the medical ventilator is provided with a plug-in slot supporting hot-swappable monitor, and the medical ventilator communicates with the monitor through the communication interface of the plug-in slot.
- the monitor is a detachable module of a medical ventilation device.
- Medical ventilation equipment correlates different functions and modes, and based on the correlation, can quickly realize the operation in a specific mode, such as CPRV mode, which can further improve the operation efficiency during ventilation and monitoring, reduce the workload of medical staff, and It can improve the effect of treating patients in emergency situations.
- a specific mode such as CPRV mode
- the disclosed devices and methods may be implemented in other ways.
- the device embodiments described above are only illustrative.
- the division of the units is only a logical function division. In actual implementation, there may be other division methods.
- multiple units or components can be combined or May be integrated into another device, or some features may be omitted, or not implemented.
- the various component embodiments of the present application may be realized in hardware, or in software modules running on one or more processors, or in a combination thereof.
- a microprocessor or a digital signal processor (DSP) may be used in practice to implement some or all functions of some modules according to the embodiments of the present application.
- DSP digital signal processor
- the present application can also be implemented as an apparatus program (for example, a computer program and a computer program product) for performing a part or all of the methods described herein.
- Such a program implementing the present application may be stored on a computer-readable medium, or may be in the form of one or more signals.
- Such a signal may be downloaded from an Internet site, or provided on a carrier signal, or provided in any other form.
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Abstract
Description
Claims (68)
- 一种医疗通气设备,其特征在于,所述医疗通气设备包括:患者管路,用于连接患者界面,以向患者气道输送通气气体;压力发生器,用于产生设定压力的气体,以输送给所述患者;控制器,用于基于与所述患者匹配的配置信息控制所述压力发生器对所述患者进行通气;人机交互接口,用于显示所述医疗通气设备的呼吸治疗参数和获取用户的输入信息;所述医疗通气设备上还设置有一物理连接结构,所述物理连接结构用于可拆卸地将监护仪安装在所述医疗通气设备主体上;所述监护仪用于在所述医疗通气设备对所述患者进行通气治疗时,测量所述患者的生理参数数据;所述医疗通气设备还包括通信接口,用于在所述监护仪安装在所述医疗通气设备上时,与所述监护仪进行信息通信。
- 如权利要求1所述的医疗通气设备,其特征在于,所述人机交互接口还用于获取用户输入的控制指令,所述控制器还用于根据所述控制指令,并通过所述通信接口向所述监护仪发送所述控制指令,以控制所述监护仪执行第一操作。
- 如权利要求2所述的医疗通气设备,其特征在于,所述控制器还用于根据所述控制指令控制所述医疗通气设备执行第二操作,所述第一操作与所述第二操作具有关联性。
- 如权利要求3所述的医疗通气设备,其特征在于,所述第一操作或所述第二操作包括开机、关机、待机、进入特定工作模式、报警限设置中的至少一种。
- 如权利要求4所述的医疗通气设备,其特征在于,所述人机交互接口包括工作模式按键,所述工作模式按键与所述监护仪和所述医疗通气设备中对应的特定工作模式相关联,所述工作模式按键用于基于所述用户的操作生成用于同时控制所述监护仪和所述医疗通气设备进入所述特定工作模式的控制指令。
- 如权利要求5所述的医疗通气设备,其特征在于,所述工作模式 按键包括抢救模式按键,所述抢救模式按键与所述监护仪的心肺复苏抢救模式和所述医疗通气设备的心肺复苏通气模式相关联,确定到用户操作所述抢救模式按键时,所述监护仪启动心肺复苏抢救模式,同时所述医疗通气设备启动心肺复苏通气模式。
- 如权利要求1-6任意一项所述的医疗通气设备,其特征在于,所述控制器还用于获取所述监护仪对所述患者进行监测得到的生理参数数据,所述人机交互接口还用于显示获取的所述生理参数数据。
- 如权利要求7所述的医疗通气设备,其特征在于,所述人机交互接口包括显示装置,所述显示装置包括至少两个显示区域,所述生理参数数据和所述呼吸治疗参数在不同的显示区域显示。
- 如权利要求7所述的医疗通气设备,其特征在于,所述人机交互接口包括显示装置,所述显示装置用于将所述生理参数数据和所述呼吸治疗参数融合显示。
- 如权利要求9所述的医疗通气设备,其特征在于,所述显示装置包括多个显示区域,不同的生理参数数据和不同的呼吸治疗参数显示于不同的显示区域;所述医疗通气设备还配置为将具有关联性的生理参数数据和呼吸治疗参数融合显示在同一显示区域内。
- 如权利要求1-10任意一项所述的医疗通气设备,所述物理连接结构包括热插拔结构,所述医疗通气设备上设置有支持热插拔所述监护仪的插件槽,所述医疗通气设备通过所述插件槽的通信接口与所述监护仪通信。
- 如权利要求1-11任意一项的医疗通气设备,其特征在于,所述人机交互接口包括触控显示屏。
- 如权利要求1-12任意一项的医疗通气设备,其特征在于,所述通信接口包括触点式通信接口、光通信接口、蓝牙通信接口、WIFI通信接口中的至少一种。
- 如权利要求1-13任意一项所述的医疗通气设备,其特征在于,所述医疗通气设备还包括电源装置和共用电源接口,在所述监护仪安装在所述医疗通气设备主体上时,所述电源装置用于同时为所述医疗通气设备和所述监护仪进行供电。
- 如权利要求1-14任意一项所述的医疗通气设备,其特征在于, 所述监护仪为多参监护仪。
- 如权利要求15所述的医疗通气设备,其特征在于,所述多参监护仪获取的多个生理参数包括ECG参数。
- 如权利要求1-16任意一项所述的医疗通气设备,其特征在于,所述医疗通气设备包括便携式呼吸机,所述监护仪包括转运监护仪。
- 如权利要求1-17任意一项所述的医疗通气设备,其特征在于,所述控制器还用于基于所述通信接口将所述医疗通气设备的工作数据传输至所述监护仪。
- 如权利要求18所述的医疗通气设备,其特征在于,所述工作数据为所述医疗通气设备的通气配置数据和/或通气监测数据。
- 一种医疗通气设备,其特征在于,所述医疗通气设备包括:患者管路,用于连接患者界面,以向患者气道输送通气气体;压力发生器,用于产生设定压力的气体,以输送给所述患者;控制器,用于基于与所述患者匹配的配置信息控制所述压力发生器对所述患者进行通气;人机交互接口,用于显示所述医疗通气设备的呼吸治疗参数和获取用户的输入信息;所述医疗通气设备还包括通信接口,用于与监护仪进行信息通信;所述监护仪用于在所述医疗通气设备对所述患者进行通气治疗时,测量所述患者的生理参数数据;所述人机交互接口还用于获取用户输入的控制指令,所述控制器还用于根据所述控制指令,并通过所述通信接口向所述监护仪发送所述控制指令,以控制所述监护仪执行第一操作。
- 如权利要求20所述的医疗通气设备,其特征在于,所述控制器还用于根据所述控制指令控制所述医疗通气设备执行第二操作,所述第一操作与所述第二操作具有关联性。
- 如权利要求21所述的医疗通气设备,其特征在于,所述第一操作或所述第二操作包括开机、关机、待机、进入特定工作模式、报警限设置中的至少一种。
- 如权利要求22所述的医疗通气设备,其特征在于,所述人机交互接口包括工作模式按键,所述工作模式按键与所述监护仪和所述医疗通 气设备中相同的特定工作模式相关联,所述工作模式按键用于基于所述用户的操作生成用于同时控制所述监护仪和所述医疗通气设备进入所述特定工作模式的控制指令。
- 如权利要求23所述的医疗通气设备,其特征在于,所述工作模式按键包括抢救模式按键,所述抢救模式按键与所述监护仪的心肺复苏抢救模式和所述医疗通气设备的心肺复苏通气模式相关联,启动所述抢救模式按键时,所述监护仪启动心肺复苏抢救模式,同时所述医疗通气设备启动心肺复苏通气模式。
- 如权利要求20-24任意一项所述的医疗通气设备,其特征在于,所述控制器还用于获取所述监护仪对所述患者进行监测得到的生理参数数据,所述人机交互接口还用于显示获取的所述生理参数数据。
- 如权利要求25所述的医疗通气设备,其特征在于,所述人机交互接口包括显示装置,所述显示装置包括至少两个显示区域,所述生理参数数据和所述呼吸治疗参数在不同的区域显示。
- 如权利要求25所述的医疗通气设备,其特征在于,所述人机交互接口包括显示装置,所述显示装置用于将所述生理参数数据和所述呼吸治疗参数融合显示。
- 如权利要求27所述的医疗通气设备,其特征在于,所述显示装置包括多个显示区域,不同的生理参数数据和不同的呼吸治疗参数显示于不同的显示区域;所述医疗通气设备还配置为将具有关联性的生理参数数据和呼吸治疗参数融合显示在同一显示区域内。
- 如权利要求20-28任意一项所述的医疗通气设备,其特征在于,所述监护仪为多参监护仪。
- 如权利要求29所述的医疗通气设备,其特征在于,所述监护仪至少用于获取ECG参数。
- 如权利要求20-30任意一项所述的医疗通气设备,其特征在于,所述医疗通气设备包括便携式呼吸机。
- 如权利要求20-31任意一项所述的医疗通气设备,其特征在于,所述控制器还用于基于所述通信接口将所述医疗通气设备的工作数据传输至所述监护仪。
- 如权利要求32所述的医疗通气设备,其特征在于,所述工作数 据为所述医疗通气设备的通气配置数据或通气监测数据。
- 一种医疗通气设备,其特征在于,所述医疗通气设备包括:患者管路,用于连接患者界面,以向患者气道输送通气气体;压力发生器,用于产生设定压力的气体,以输送给所述患者;控制器,用于基于与所述患者匹配的配置信息控制所述压力发生器对所述患者进行通气;人机交互接口,用于显示所述医疗通气设备的呼吸治疗参数和获取用户的输入信息;所述医疗通气设备还包括通信接口,用于与监护仪进行信息通信;所述监护仪用于在所述医疗通气设备对所述患者进行通气治疗时,测量所述患者的生理参数数据;所述控制器还用于通过所述通信接口获取所述监护仪对所述患者进行监测得到的生理参数数据,所述人机交互接口还用于显示获取的所述生理参数数据。
- 一种医疗设备,其特征在于,包括通气装置和监护装置,所述通气装置和所述监护装置不可拆卸地集成在一起;所述通气装置包括:患者管路,用于连接患者界面,以向患者气道输送通气气体;压力发生器,用于产生设定压力的气体,以输送给所述患者;所述监护装置用于通过生理参数传感器获取所述患者的生理参数数据;所述医疗设备还包括:控制器,用于基于与所述患者匹配的配置信息控制所述通气装置对所述患者进行通气,以及控制所述监护装置获取所述患者的生理参数数据;人机交互接口,所述人机交互接口包括第一显示屏和第二显示屏,所述第一显示屏用于显示所述通气装置的呼吸治疗参数,所述第二显示屏用于显示所述生理参数数据。
- 如权利要求35所述的医疗设备,其特征在于,所述人机交互接口还用于获取用户输入的控制指令,所述控制器还用于根据所述控制指令控制所述通气装置执行第一操作,以及控制所述监护装置执行第二操作,所述第一操作与所述第二操作具有关联。
- 如权利要求36所述的医疗设备,其特征在于,所述第一操作或 所述第二操作包括开机、关机、待机、进入特定工作模式、报警限设置中的至少一种。
- 一种医疗通气设备,所述医疗通气设备用于与监护仪通信连接,所述医疗通气设备配置为对患者进行呼吸治疗,所述医疗通气设备包括显示装置,用于显示所述医疗通气设备的呼吸治疗参数;其特征在于,所述医疗通气设备还用于获取用户输入的控制指令,并基于所述控制指令至少控制所述监护仪工作。
- 根据权利要求38所述的医疗通气设备,其特征在于,所述医疗通气设备基于所述控制指令至少控制所述监护仪工作,包括:所述医疗通气设备基于所述控制指令同时控制所述监护仪和所述医疗通气设备开机、关机、待机和进入特定工作模式中的至少一种。
- 根据权利要求39所述的医疗通气设备,其特征在于,所述医疗通气设备包括交互按键,所述交互按键用于基于所述用户的操作生成所述控制指令。
- 根据权利要求40所述的医疗通气设备,其特征在于,所述交互按键包括工作模式按键,所述工作模式按键与所述监护仪和所述医疗通气设备中相同的工作模式相关联,所述工作模式按键用于基于所述用户的操作生成用于同时控制所述监护仪和所述医疗通气设备进入所述特定工作模式的控制指令。
- 根据权利要求41所述的医疗通气设备,其特征在于,所述工作模式按键包括抢救模式按键,所述抢救模式按键与所述监护仪的心肺复苏抢救模式和所述医疗通气设备的心肺复苏通气模式相关联,启动所述抢救模式按键时,所述监护仪启动心肺复苏抢救模式,同时所述医疗通气设备启动心肺复苏通气模式。
- 根据权利要求38所述的医疗通气设备,其特征在于,所述监护仪和所述医疗通气设备之间通过无线通信连接;或者,所述监护仪通过物理连接结构可拆卸地固定于所述医疗通气设备上并且与所述医疗通气设备进行通信;或者,所述监护仪为内置于所述医疗通气设备中的模块。
- 根据权利要求43所述的医疗通气设备,其特征在于,所述物理连接结构为热插拔结构,所述医疗通气设备上设置有支持热插拔所述监护仪的插件槽,所述医疗通气设备通过所述插件槽的通信接口与所述监护仪 通信。
- 根据权利要求38所述的医疗通气设备,其特征在于,所述监护仪为所述医疗通气设备的可拆卸模块。
- 根据权利要求38至45之一所述的医疗通气设备,其特征在于,所述医疗通气设备还用于获取所述监护仪对所述患者进行监测得到的生理参数数据,所述医疗通气设备包括显示装置,用于显示所述医疗通气设备的呼吸治疗参数和获取的所述生理参数数据。
- 根据权利要求46所述的医疗通气设备,其特征在于,所述显示装置包括至少两个显示区域,所述生理参数数据和所述呼吸治疗参数在不同的区域显示。
- 根据权利要求46所述的医疗通气设备,其特征在于,所述显示装置还用于将所述生理参数数据和所述呼吸治疗参数融合显示。
- 根据权利要求48所述的医疗通气设备,其特征在于,所述显示装置包括多个显示区域,不同的所述生理参数数据和不同的所述呼吸治疗参数显示于不同的显示区域;所述医疗通气设备还配置为将具有关联性的生理参数数据和呼吸治疗参数融合显示在同一显示区域内。
- 一种医疗通气设备,所述医疗通气设备用于与监护仪通信连接,所述医疗通气设备配置为对患者进行呼吸治疗,所述医疗通气设备包括显示装置,用于显示所述医疗通气设备的呼吸治疗参数;其特征在于,所述医疗通气设备还用于获取所述监护仪对所述患者监测得到的生理参数数据,以及将所述生理参数数据显示于所述显示装置。
- 根据权利要求50所述的医疗通气设备,其特征在于,所述监护仪和所述医疗通气设备之间通过无线通信连接;或者,所述监护仪通过物理连接结构可拆卸地固定于所述医疗通气设备上并且与所述医疗通气设备进行通信;或者,所述监护仪为内置于所述医疗通气设备中的模块。
- 根据权利要求50所述的医疗通气设备,其特征在于,所述监护仪为多参监护仪。
- 根据权利要求50所述的医疗通气设备,其特征在于,所述监护仪至少用于获取ECG参数。
- 根据权利要求51所述的医疗通气设备,其特征在于,所述物理连接结构为热插拔结构,所述医疗通气设备上设置有支持热插拔所述监护 仪的插件槽,所述医疗通气设备通过所述插件槽的通信接口获取所述监护仪对所述患者监测得到的生理参数数据。
- 根据权利要求50所述的医疗通气设备,其特征在于,所述监护仪为所述医疗通气设备的可拆卸模块。
- 根据权利要求55所述的医疗通气设备,其特征在于,所述物理连接结构包括设置于所述监护仪上插入所述插件槽的一端上的第一连接结构以及设置于所述插件槽的侧壁上的第二连接结构,其中所述第一连接结构和所述第二连接之间相互匹配。
- 根据权利要求50至56之一所述的医疗通气设备,其特征在于,所述显示装置包括至少两个显示区域,所述生理参数数据和所述呼吸治疗参数在不同的区域显示。
- 根据权利要求50至56之一所述的医疗通气设备,其特征在于,所述显示装置还用于将所述生理参数数据和所述呼吸治疗参数融合显示。
- 根据权利要求58所述的医疗通气设备,其特征在于,所述显示装置包括多个显示区域,不同的所述生理参数数据和不同的所述呼吸治疗参数显示于不同的显示区域;所述医疗通气设备还配置为将具有关联性的生理参数数据和呼吸治疗参数融合显示在同一显示区域内。
- 根据权利要求50所述的医疗通气设备,其特征在于,所述医疗通气设备包括便携式呼吸机。
- 根据权利要求50至60之一所述的医疗通气设备,其特征在于,所述监护仪还用于获取并保存所述医疗通气设备的工作数据。
- 一种医疗通气设备,所述医疗通气设备用于与监护仪通信连接,所述医疗通气设备配置为对患者进行呼吸治疗,所述监护仪配置为监测所述患者的生理参数数据;其特征在于,所述医疗通气设备配置为获取用户输入的控制指令,并基于所述控制指令控制所述监护仪进入CPR抢救模式。
- 如权利要求62所述的医疗通气设备,其特征在于,所述医疗通气设备包括显示装置,所述医疗通气设备用于控制所述显示装置显示所述医疗通气设备的呼吸治疗参数,以及获取所述监护仪对所述患者监测得到的所述生理参数数据,并控制所述显示装置显示所述生理参数数据。
- 如权利要求63所述的医疗通气设备,其特征在于,所述医疗通气设备还用于控制所述显示装置显示CPR专用工具界面,所述CPR专用 工具界面用于显示CPR相关信息。
- 如权利要求62所述的医疗通气设备,其特征在于,所述医疗通气设备还用于基于所述控制指令进入CPR通气模式,以对所述患者进行通气。
- 根据权利要求62所述的医疗通气设备,其特征在于,所述监护仪和所述医疗通气设备之间通过无线通信连接;或者,所述监护仪通过物理连接结构可拆卸地固定于所述医疗通气设备上并且与所述医疗通气设备进行通信;或者,所述监护仪为内置于所述医疗通气设备中的模块。
- 根据权利要求66所述的医疗通气设备,其特征在于,所述物理连接结构为热插拔结构,所述医疗通气设备上设置有支持热插拔所述监护仪的插件槽,所述医疗通气设备通过所述插件槽的通信接口与所述监护仪通信。
- 根据权利要求62述的医疗通气设备,其特征在于,所述监护仪为所述医疗通气设备的可拆卸模块。
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2021
- 2021-08-19 EP EP21953768.5A patent/EP4389181A1/en active Pending
- 2021-08-19 WO PCT/CN2021/113602 patent/WO2023019525A1/zh active Application Filing
- 2021-08-19 CN CN202180101170.7A patent/CN117794600A/zh active Pending
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2024
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WO2024066872A1 (zh) * | 2022-09-27 | 2024-04-04 | 深圳迈瑞生物医疗电子股份有限公司 | 通气设备主机、通气设备以及医疗设备 |
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EP4389181A1 (en) | 2024-06-26 |
US20240173496A1 (en) | 2024-05-30 |
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